DE2805714B2 - Delay device for emitting an output signal with a delay time that can be changed with respect to the occurrence of an electrical input signal - Google Patents

Description

The invention relates to a delay device for emitting an output signal with respect to the occurrence of an electrical input signal variable delay time, with a: Rod-shaped magnetostrictive element made of a material whose Young's modulus is dependent on the strength of an applied magnetic field changes, with an input transducer arranged at an end part of the magnetostrictive element, which is of a signal input terminal receives an electrical input signal and converts it into an ultrasonic wave, with one at the other end portion of the Magnetostrictive element arranged output transducer, which converts the ultrasonic wave into an electrical Converts output signal and outputs this to a signal output terminal, and with a device that a between the input transducer and the output converter provided along the magnetostrictive Element generated locally with different strengths of magnetic field

There are already a method and an arrangement for the time processing of electrical signal pulses known (DE-OS 20 45 502). With this well-known The arrangement is a compression filter for (radar) impulse signals, in order to achieve a temporal compression from microseconds to nanoseconds. This is also done with magnetostrictive Material worked into and on which elastic shear waves are coupled or coupled by piezo transducers. be decoupled. However, the overall existing corn gnetfelder to be considered together cause elastic shear waves and spin waves are converted into one another, namely with the help of a spatially uniform, but temporally variable magnetic field. With regard to one of these magnetic fields, it is known that this along the for the Signal transmission provided element can also be locally different in strength, without, however, in In this context, it is known what purpose such a measure could serve.

In connection with the previously commonly used delay devices of the type considered above, it should be noted that if the length of the signal transmission path of a delay line for delaying an electrical signal with / and the transmission or propagation speed of the electrical signal through the signal transmission path of the delay line with ν it is assumed that a delay or transit time Vd of the electrical signal is obtained according to the following relationship:

To change the running time τ ^ the one The electrical signal passing through a delay line are two basic processes possible. According to one method, the transmission speed ν of the relevant Si

4 "gnal" is changed, and according to the other procedure, the length / delay line changed.

Assuming that the frequency of an input signal is f \ and its speed of propagation is Ki, the wavelength At of the signal is sufficient

so in the delay line the following relationship:

If the transit time of a signal passing through the delay line is changed by the propagation speed ν, then the wavelength Λ of the propagation speed ν is stationary State proportional. If the delay line in question is used in a video tape recorder to correct synchronization disturbances, occur in the signals reproduced by the video tape recorder in question, and if the Run time is changed gradually during the line blanking period, for example, changes a Frequency / Ί into a frequency / j. The signal fed to the delay line has the wavelength λι, d. H.

the frequency f \, and the speed of propagation immediately before the change is v \. Immediately after the point in time at which the velocity of propagation has been changed from v \ to η and the delay time given to the signal by the delay line has changed from Tei to τ <β, the following relationship applies to the output frequency / 2:

D ₂

Τ _Λ

From the above consideration, a defect becomes apparent in that the frequency / i of the input signal is different from the frequency h of the delayed output signal

In contrast to the processes under consideration, if one works with a significant change in the Length / the signal transmission path of the delay line, this disadvantage just mentioned does occur not on. To do this, however, changing the length / delay line requires the implementation of a mechanical operation. However, this means that the running time is then not controlled at high speed can be.

The invention is now based on the object of a To train delay device of the type mentioned so that no change in frequency of the electrical signal occurs when a rapid controlled change of the running time is carried out.

The object indicated above is achieved with a delay device of the type mentioned at the beginning Type according to the invention in that when the delay device is used to equalize recorded video signals, the intensity of the magnetic field increases or decreases linearly from the input transducer to the output transducer

The invention has the advantage that a signal extension or in a relatively simple manner Signal compression can be achieved without an associated frequency change.

Appropriate configurations of the subject matter of the present invention emerge from the sub-claims.

The invention is explained in more detail below with reference to drawings

F i g. 1 shows a schematic view of an embodiment of a delay device;

FIG. 2 shows a schematic diagram to illustrate that shown in FIG Embodiment of the delay device;

F i g. 3 shows a schematic view of one embodiment of a television signal control device at FIG Using the delay device;

F i g. 4A to 4F schematically show signal patterns for explaining the functions shown in FIG. The video signal control apparatus shown in Fig. 3.

An embodiment of the delay device for correcting synchronization errors a television signal reproduced by, for example, a video tape recorder is shown below with reference to FIG. 1 through 4F.

In Fig. 1, an embodiment of a delay device is illustrated. In Fig. 1 designated 1 a rod-shaped magnetostrictive part made of an amorphous magnetic material containing iron and its Youngfcher module through a uaran applied magnetic field is changed turk. These As a matter of fact, when an ultrasonic wave signal propagates on the rod-shaped magnetostrictive part 1, the propagation speed is increased this ultrasonic wave signal is changed. It is known that the transit time of an ultrasonic wave signal in a delay device with a rod-shaped magnetostrictive part by applying a Magnetic field can be changed as a result of changed Young's modulus.

An input transducer 2 converting an electrical signal into an ultrasonic wave signal is at one end of the rod-shaped magnetostrictive part t is provided, while an output transducer is provided at the other end thereof 3 for converting this ultrasonic wave signal into a electrical signal is provided The input and output transducers 2 and 3 are designed similarly The bobbin is wound, which does not touch the part 1 The rod-shaped magnetostrictive part 1 is passed through the coil body In F \ i. 1 show 4 and 5 magnets for applying vormagrieiishnmgsfeldern to the input and output transducers 2 and 3, respectively. 6a and 66 denote attenuators both ends of the rod-shaped magnetostrictive part 1 are provided to avoid reflection of the ultrasonic wave signal at the end in question and which also serve as a holder. A magnetic field generating device 7 is in connection with the Rod-shaped magnetostrictive part 1 between the input and output transducers 2 and 3, respectively intended. Here, the magnetic field distribution of the device 7 is chosen so that the magnetic field in the longitudinal direction of the rod-shaped magnetostrictive

j5 Part 1 changed In the case of the one shown here. Exemplary embodiment, the device 7 generating the magnetic field is a coil wound on the magnetostrictive part 1 between the input and output transducers 2 and 3, the winding density or

The number of turns per unit length of the coil extends from the input transducer 2 to the output transducer 3 Gradually changes The coil is e.g. B. so wound that their winding density from the input transducer 2 to the output transducer 3 is increasingly sealed. A Controllable current flowing through the coil generates a magnetic field strength M [AT / m] (ampere-turns per meter) in part 1, which is given by the equation: M = Aar + Afo, where χ is the position coordinate along part 1 between the Input transducer 2 and output transducer 3, k is a constant and Mo is a premagnetization. The course of the magnetic field strength is shown in the graph in FIG. 2 shown. Correspondingly increases proportionally with the increase in magnetic field strength M is the speed of sound of the ultrasonic wave signal, which propagates through the magnetostrictive part 1 consisting of the amorphous magnetic material magnetostrictive 1 part 1 decreases accordingly.

Based on the F i g ,. 3 is described below how with the above variable delay device, causes synchronization disturbances in a reproduced video signal or television signal corrected or equalized with a video tape recorder. According to Fig. 3 is a playback video signal source 9 of a (not shown) video tape recorder to the input 2a of the input converter 2 for

Creation of a video signal connected whose synchronization disturbance is to be eliminated or equalized. The electrical signal to be obtained at the output 3a of the output transducer 3 is fed to an output Sa via an amplifier 8. A controllable current source 10 is connected to the input 7a of the device 7 generating a magnetic field in order to correct the synchronization disturbances.

The operation of the above device for correcting synchronization disturbances will be described with reference to FIGS. 4A to 4F. A controlled current shown in FIG. 4A is applied to the input Ta of the magnetic field generating device 7. According to FIG. 4A, the ordinate represents time and the abscissa represents current / (,. This current is changed in size according to the temporal fluctuation of the incoming video signal. In this example, a synchronization disturbance becomes

IVWl llglVlt

Horizontal period or line of the video signal is shorter by the time Δ than the standardized line duration Hj. This time Δ is corrected. In Figure 4A, Hh is the duration of the line blanking period of the video signal.

4B shows a video signal present between the input and the output of the variable delay device at time Z ₁ with such a synchronization disturbance that its signal period or line duration is shorter by the time Δ than the normalized line duration H * at the output of the variable delay device Signal ends in the line blanking period of the video signal. At the point in time fi the input Ta of the device 7 which generates the magnetic field is fed with the stepwise changed current Ig shown in FIG Ib generated magnetic field is changed. The signal distribution is made in the delay device in the line blanking period f / e according to FIGS. 4C and 4D are changed and the video signal is stretched. At the end time / j of the line blanking period Ht, according to FIG. 4D, the video signal part is made essentially equal to the normalized line duration //.

As a result, the sync component initially contained in the video signal ■> has also been corrected within the line blanking period H _b. When the end of line occurs in a manner as shown in Fig. 4E, no current is applied to the magnetic field generating device 7. if

If the line blanking period Hb is again as shown in FIG. 4F, the synchronization disturbance of the video signal is corrected again as above.

As described above, the running time in the delay device is set by changing the size of the

ii generated by the device 7 magnetic field changed, which acts in the magnetostrictive part 1 and that along the longitudinal direction of the magnetostrictive Part 1 is changed. Be accordingly

j: _ r ... L ..:. j: .L .: ~ A a: " νι / _η ||» ~ Ι; · ~>. » 1 Aa * ...- K

UIV. VJV.JV.II * TIIIUIgr \ l.lt r UHU UIV »· *. ,, · .§ , au · > Q«. r »Ut ...". ". <·

> <> propagating through the delay device Ultrasonic wave signal changed significantly at the same time. As a result, this can be done without changing the Frequency of the delayed electrical output signal, i. H. without any distortion of the same

. ') will lead.

With the delay device described above, the running time can be controlled at high speed.
In the case of the FIG. 3 is shown embodiment

corrected into a synchronization disturbance of the video signal, the line duration of which is shorter than the normalized line duration H ₁ . However, according to the same principle, a synchronization disturbance in which the line duration of the video signal is longer than the normalized line duration H 1 can also be corrected. namely in that the device 7 generating the magnetic field generates a magnetic field distribution similar to that of the embodiment according to FIG. 3 is opposite.

For this purpose 2 sheets of drawings

Claims (4)

Patent claims: 1. Delay device for dispensing a Output signal with variable delay time with respect to the occurrence of an electrical input signal, with a rod-shaped magnetostrictive element made of a material whose Young's modulus changes depending on the strength of an applied magnetic field, with an input transducer disposed at one end portion of the magnetostrictive element, which is derived from a signal input terminal receives an electrical input signal and converts it into an ultrasonic wave, with one at the other end portion of the Magnetostrictive element arranged output transducer that converts the ultrasonic wave into a converts electrical output signal and outputs this to a signal output terminal, and with a Device which is provided between the input transducer and the Jj ^ sgangswandler, along the magnetostrictive element generates locally different strong magnetic fields, characterized in that when the delay device is used to equalize recorded video signals, the intensity of the magnetic field increases or decreases linearly from the input transducer (2} to the output transducer (3) 2. Delay device according to claim 1, characterized in that the device for generating the linearly increasing or decreasing Magnetic field is formed by a coil surrounding the magnetostrictive element, the Winding distribution from the input transducer (2) to the output transducer (3) increases continuously or falls off 3. Delay device according to claim 1 or 2, characterized in that a mechanically acoustic damping element (6a, 6b) is provided at at least one end of the magnetostrictive element (1) which avoids reflections of the ultrasonic wave 4. Delay device according to claim 1, characterized in that the magnetostrictive Element (1) is made of amorphous magnetic material